Machine for cutting metal parts



Jan. 2-, 1945. R SER 2,366,247

MACHINE FOR CUTTING METAL PARTS Filed June 24, 1945 4 Sheets-Shet 1 5 I 50 akadw ATTORN EYS Jan. 2, 1945. F sEh 2,366,247

MACHINE FOR CUTTING METAL PARTS Filed June 24, 1943 4 Sheets-Sheet 2 INVENTOR ATTORNEYS Jan. 2; 1945. R. FAUSER 2,366,247

MACHINE FOR CUTTING METAL PARTS Filed Jun e 24, 1943 4 Sheets-Sheet 3 r 4 95 z @A? 1/5 1/3 I 129' k ("I j I 7\\\Q 130 %VENTOR 11/ 76 7A8 Jan. 2, 1945 R FAUSER 2,366,247

MACHINE FOR CUTTING METAL PARTS Filed June 24, 1945 4 Sheets-Sheet 4 6 6 I 9 47 4 l I 4/ J l, i

75 7y 70 1z i TI #70 3f 76' f I 1,? 132 13/ "/26 O I Fr v I .70

l NTOR ATTORNEYS Patented Jan. 2, 1945 asseizii f n MACHINE Fort GUTTIN ETALYPARTS Richard Fauser, Kenmore; N Y., assignor to M S W Manufacturin g Company, Incorporated;

Buffalo, N. Yi, a corporation of New York Application June 24, 1943, Serial No.. 492,090.

i o 161 Claims. (01. canes This invention relates to a machine for cutting metal fittings and more particularly to a machine for cutting bayonetslots in pins which are used as ea part Of fasteners in holding sheet metal parts together, such as the sheet metalparts orfl anai-rplane fuselage,

One of the principal objects of the invention is to provide such amachine which is adapted to handle fittings of theparticular shape shown and which will accurately cut a bayonet slot of predetermined form and tion to a screw driver slot previously formed in the pin.- 1 b i Another object is to provide sucha machine in which the fittings canbe easily fed to the machine and in which the diflicult operations are taken care of automatically, the machine not being, however; completely automatic, it having been found that fittings can be produced at a higherispeed and with greater accuracy with semi-automaticoperation. i

- Another purpose is to provide such a machine in which an adequate amount of cutting oil is fed during-the cutting operation to facilitate the cutting and absorb heat but in which the cutting oil is kept in a substantially closed circuit so that only a smallam'ount of oil can escape, either as leakage or with the finished product.

" A'nother aim is to provide such a machine which'is adequately guarded so as to avoid danger i of injury to the ope rator but which is at the same timereadily-accessible tor repair or adjust- I nent. a n j Another object is to provide sucha machine which can readily be adjusted to producesimilar parts of different sizes; thereby to avoid too in predetermined relahighly specialized'a machine and to extend its f fAnothenobject is to provide a rotary cutter particularly applicable for cutting such slots. "Another object is to provide such a machine in which the finished product is quickly ejected and restored for, operation on the next piece.

Another object is to provide such a machine which is {simple in construction, considering the function it performs, which is reliable in operation, which can be run by unskilled labor and i which will stand up under conditions of severe and constant .use without getting out of order or requiring repairs.

In the accompanying drawin'gs: Fig. 1 is a side elevation of a machine for cutting metal fittingsand embodying my inven $10 ion, takenon line 4--4, Fig. 1.

on which the machine operates! n Fig. 3 is asimilar; sideelevation showing the finished product of the machine Fig.4 is an enlarged vertic l ir smentaty sec Fig. 2 is aside el vation or the .biaiik fitting:

g: 5 i an enlarg d horizontal fragment ry: s ctionitak n on line 5 -5,,1iie; 1 a d showing one position jof the parts. k i i 1 Fi .6 isa view similar to Fig.- 5 and showin another position of the? par s.

Fig. -'7 is a fragmentary ver ical section, taken on line "I 1, .Fig. 6. a i j n I Fig. 81s a gr atly enlarged vertical transv rse section through the center of thecutter used in cutting the bayonet slo i n Fig. Sis an enlar d verticalfragmentar sew tion, taken on linefsflari 1 Fig; is a fragmentary v horizontal section, takenonlinel0-l0,Fig.9- I a ,Fig. 11 isa view similar to Fig. 1G butfshow me another positionofthe. parts. i

i The metal fittingin which the machine em.-

bodyin thepresent invention is used to-cut a;

bayonet slot therein is, as best shown in Figs; 2 and 3 a qol ar 'button-like pin. 2.0 having a, re: duced shank'z I, a comparatively thin radially BX? tending annularflangafl at one endand acylindricalcoaxial head 23 at its opposite end. The blank shown in Fig. 2 itshead 23 provided Wu an axial bore 24 extending inwardly from its end was far as the reduced shank 2| of the pin, and the nd forming the flangeJZZ is provided, as best shown in Figs. 4, '7 and 9, with screw driver slot Zibyfmeans of which the pin an-be turned in applying i as afastener. It will be particularly notedthat this screw driver slot-is not a straight slotbutlis 0f rounding form, t

the slot, as best shown in Fig. being deep at its. center and as tapering at-its 'endsto join the flat end su face of'the end flange 22 of the pin, The fitting as. shown in Figs. 2 and 3 is enlarg d The machineembodying the invention cuts a bayonet s1oti28 inthe piniZfl, as best. shown in Fig. 3. This bayonet slot extends thelfull width of the head 23 of the pin and intersects the bore 24 therein. 'lhis bayonet slotstartsi at the oute metal panels, the v the front end of the arm 32 of the'standard 33 in any suitable manner and has a pair of spaced depending side portions 35 defining a working space 36 therebetween. Each of these, side portions 35 is provided with a horizontal bore 38,

the bores 38. extending through to the working space 36 and alining with each other. In each of the bores 38 is secured a pair of spaced rollerv bearings 39, each pair of these roller bearings 39 carrying a tubular spindl lll, the opposing ends of these tubular spindles being threadedto carry a chuck head 4| having a tapering bore into which'is fitted the enlarged tapered head of a tubular split chuck'jaw 42. The shank of each'of 3 these tubular split chuck jaws 42 is fitted into the bore of the corresponding tubular spindle 40 and against the end of a tube 43, each of these tubes being forced inwardly by means of'a' screw 44 threadedly fitted in the end 'of thecorresponding tubular spindle 40. Thecutter 46 is shown as mad of hardened drill rod,'this' rod being shown as provided at its centerwith three spiral cutting teeth 41 as best shown in Fig; 8. The spiral cutting teeth areprovided only at the center o fthe rod and the ends of the cutting rod are gripped by the split chuck'jaws 42, the central cutting portion of the cutter 46 being thereby held in the center of the working space 36 between the dependingportions'35 of th "supporting head 34.

The cutter 46 is released from the chuck jaws 42 by removing the screws 44 at'the ends ofthe tubular spindles 40; This releases the end pressure on the two tubes 43 and thereby permits the: two tubular split conical chuck jaws 42 to back away from th conical face of the chuck.

heads 4|. This permits the tubular split chuck jaws'yto open up and releasethe ends of the cutter46, following which the cutter can be pushed out through th bores of the split chuck jaws 42 and tubes 43, another cutter '46 being replaceable in like. manner.

. The tubular spindles 40 are rotated in their ball bearings 39to rotate the cutter 46 held by the chuck jaws at the inner ends of these spindles. For this purpose'the spindles 40 are heldagainst axial movement in, any suitable manner and one of the spindles hasfixed thereto a pulley 56 which is driven, through a belt frorn'any suitabl source of power (not shown), The spindles and cutter are'rotated in a direction to carry the chips to the 1eft, as viewed in Fig. 4', and the discharge of chips is further facilitated byia stream of cutting oil and the applicationofsuction to the working space, this suctionalso preventing any substantial amount of the cutting oil from dripping from the working space either during or following the cutting operation This application of suction to removefthe cutting oil and the chips is particularly important in the present machine as the bayonet slot is cut downwardly into the blank which is presented from underneath th cutter as hereinafter described.

J To provide forthe application of cutting oil to the cutter 46' and the removal, of this oil and the chips by suction, a block 55, as best shown in Figs. 4 and 7, is secured to the underside of the head 34 within th working space 36 and i provided On its underside with a groove in which the cutter rod 46 rotates andis also provided with a central bore 56 into which the blank or workpiece is projected upwardly while the cutter 46 is cutting a bayonet slot therein. On the underside of this block is removably secured, in any'fsuitable manner, a small square or piece 58 of sheet metal, this piece of sheet metal having an. opening 59 in line with the central bore 56 of the block and through which the blank or workpiece is projected upwardly to be operated upon by the cutter 46,

' end ofthis chamber, as viewed in Fig. 4, is a cutting oil supply duct 60 which is supplied with oil under pressure from an oil supply line 6|,

and leading from th left hand end of thischamher, as viewed in this same figure, is a vacuum duct 62 which, asbest shown in Fig. 7, extends horizontally and connects with a vacuum or suc-' A substantial flow of cutting oil tion line 63.

therefore flows along the cutter 46 'while the same is operating on th workpiece in the direc-- tion of the arrow shown in Fig. 4, and this cut I I ting oil and the chips resulting from the cutting operation are immediately drawn into the vac-.

uum line, following which the chips and oil are separated in the usual manner and the oil recirculated through th apparatus. By the use of vacuum there is substantially no escape of cutting oil from around the cutter even when the central opening in the piece 58 of sheet metal is open. When the workpiece is not arranged in this opening air is drawn in through this open-. ing along with cutting oil from the supply duct 66 and the escape of oil is therefore not permitted. The workpiece is moved upwardly through the openingin the center of the piece 58 of sheet metal and into engagement with the cutter 46 by a pneumatic lift which is prefer the bore of which a cylinder 13 is mounted, this cylinder 13 being capable of rotating and also moving longitudinally within'the bore of the At its upper end the cylinder 13 is sleeve 12. provided with an integral upper end head, 14

I having a bore 15 in whichthe upper'end 16 of apiston rod slides, this piston rod being cone nected with a piston 11 working within the cylinder chamber 18 of the cylinder 13. A downward extension 19 of this piston rod slides in a.

bore provided in a lower end head 8| of the cylinder 13 and this downwardextension 19 of the piston rod is provided with a longitudinal groove 82 into which the end ofa pin 83 extends, this pin being mounted in. a tubular extension 84 of the lower end head 81 of th cylinder so that the piston rod isprevented from turning relative to the cylinder 13' and its end heads 14and8l.

Air for elevating the piston 11 and its piston rod 16, 19 is supplied to the lower end of the cylinder chamber 18 by anair pressure supply line 85, this air being supplied under control of a valve 86 mounted upon the floor and operated by meansof a-treadle 81, theoperator stepping upon the treadle 86 to admit air under pressure to the lower end of the cylinder chamber 18- and elevate the rod I6, 19.

When the treadle actuated valve 86 is so actuated the upper end of the cylinder chamber I8 piston "II together with its piston is opened to the atmosphere,'*the air escaping through a 1ine'88 which communicates through a duct 89 with the upper part of the cylinder chamber I3 and also connects with thevalve 86. Whenthe operator releases the treadle 81, the conditions are reversed, air under pressure being s pp d r u h the pipe 08 and duct 89 to the upper end of the cylinder chamber I3 and the air below the piston 11 being exhausted through the pipe 85. To the upper end of the upper head I4 of the cylinder I3 is secured, as by screws 90, an inverted cup-shaped holder 9| having a bore 92 and also having an opening 93 through which thestem of the pinorworkpiece is provided into engagement with the cutter 4B.

' In this bore 92 is slidingly fitted a cylindrical follower 95, this follower also having an opening 86 at its upper end through which the stem of the pin being operated upon is projected and the lower end of this follower having an out wardly projecting peripheral flange 99 which is arranged in a larger bore9'I provided in the upper end of the upper end head 14 of the cylinfeeding groove I I2 by a plate I2I which is mounted on the supporting bracket I I and extends over upper cylinder head I4, this stop I26, in. the position shown in Fig. 6, forming an abutment for the workpiece 20 on the upper end of the upper piston rod 18. To move the pivoted stop I 26 to the position shown in Fig. 6 when one of the pins 20 is der. This follower is yieldingly held in its de- I pressed position shown in Fig. 7 by "a helical compressionspring 98 which isinterposed be-: tween the cup-shaped holder 9i and the flange 99 0f the follower 95.

The bore I00 of the follower 95 registers with the bore I provided in the upper end head 14 of the cylinder I3 for the upper end 56 of the piston rod and this bore I00, in the follower, as best shown in Fig. 7, is of the same size as the piston rod bore so that the upper end 76 of the piston rod is capable of being projected into the bore I00 of the spring 08 as best shown in Fig. 4. The upper end of the upper part I6 of the piston rod is provided with a rounding screw driver ridge I05 which is adapted to fit into the screw driver slot 25 of the pin or workpiece so as to hold the workpiece against turning relative to the piston rod while the bayonet slot is being cut therein. In order to position the workpiece on the upper end of the piston rod I6 and in proper.

register with the rounding screw driver ridge a feeding mechanism is provided which is prefer- I ably constructed as follows:

The numeral I I0 represents a supporting plate or bracket which is secured to a cam plate Hi, this cain plate being in turn fast to the upper end of the stationary sleeve 12 which carries the cylinder I3. This supporting plate or bracket projects forwardly toward the operator and is formed to provide a fiat feeding groove I I2 on its upper side, this feeding groove registering with a feeding opening H3 extendingthrough the upper end head i l and to the bore i5 therein. Near its center a screw driver ridge or projection H5 rises from the bottom of the feeding slot I I2, this ridge rounding to conform to the rounding screw driver slot 25 in the-workpiece and being arranged parallel with the sides of the slot H2. The operator places the pin or workpiece in the feeding groove H2 with its screw driver slot 25 over the screw driver ridge'i I5 and then manually moves the pin or workpiecealong the feeding slot IIZ by means of a pusher comprisin a flat bar I i 8 slidingly fitting in the feeding groove l I2 and having forked ends I I9which ride alongside the screw driver ridge II5.. This pusher is provided with a handle I20 and is held in the being fed to the machine, the handle I of. the pusher is provided with a rod 28 which engages the outer end I29 of the pivoted stop I26 sothat when the pusher is moved inwardly the rod I28 engages the pivoted stop I26 to move it from the position shown in Fig. 5 to that shown in Fig. 6.

The bayonet slot 28 is cutinfthe workpiece 20 "by manually rotating the cylinder I3 and also moving it upwardly while the cutter 40 is in engagernent with the workpiece. For this purpose the upper face of the cam plate I I I is formed to provide a cam I30 which conforms to the desired shape of the bayonet slot 28 and onwhich a roller I3I rides. This rollerfas best shown in Fig. 4, is carried by a pin I32 which is screwed into the upper head 14 of the cylinder I3. This upper head I4 of the cylinder I3 isalso provided with a handle. I-35 by means of which the cylinder I3 ismanually rotated, the endwise movement of the cylinder, in forming the bayonet slot, being effected by the roller I.3I engaging the stationary cam face I30.

, The cylinder 13 is yieldingly held in a depressed position and its roller I3I in engagement with the stationary cam face I30 by a series of helical compression springs I arranged under the supporting plate II and interposed between a thrustbearing I4I on the underside of the plate II and a thrust head I42 secured to the lower endof the tubular extension 84 of the lower end head 8| of the cylinder 13.

After the work upon the pin or workpiece 20 has been performed, pneumatic means are provided for ejecting the same from the machine. For

this purpose a foot operatedvalve I is mounted on the floor adjacent to the valve and is connected by an, air pressure pipe I5I to a goose-, neckpipe I52 mounted on the head 34 and having its discharge directed into the feeding open ing II3 of the upper head I4 of the cylinder 13.

After theoperation of cutting the bayonet slot.

28 in the workpiece has been completed, the operator steps on the Valve I50, thereby to admit a blast of air into the feeding opening I I3 of the cylinder head 14 and toblow the workpiece out through the cutout portion I25, the pivoted stop I26 swinging to the position shown in Fig. 11

Operation The machine is designed to cut a bayonet slot 28 in a blank pin, as shown in Fig. 2, and in pre.

determined relation to the screw driver slot 25 provided on the underside of this blank. The operator places one of these blanks in the feeding slot H2 on the upper side of the bracket H and The operator then pushes on the handle 120 of the pusher H8. This pusher comprises the forked bar H8 in the feeding slot H2 and this inward movement of the pusher thereby shoves the workpiece along the feeding slot I I2 into the feeding opening H3 in the upper head 14 of the cylinder 13. At this time the rounding screw driver ridge I on the upper end of the piston rod 16 is in alinement with the similar ridge II5 on which the operator placed the workpiece and therefore the workpiece is pushed into a position where it rests on top of the piston rodIG with its screw driver slot 25 in engagement with the screw driver ridge I05 on the upper end of the piston rod. The workpiece is prevented from being pushed too far by the pivoted stop I26. At the start of the feeding operation, as shown in Fig. 5, this pivoted stop is open but when the pusher H8 is moved forwardly to position the workpiece on top of the piston rod Hi the pusher rodIIZB engages the outer end I29 of the pivoted stop I26 so as to swing it to the position shown in Fig. 6. forms a positive stop for locating the workpiece in exact concentric relation to the piston rod 76.

The operator then steps upon the treadle 81.

This actuates the valve 88 to supply pressure through the pipe 85 to the lower end of the cylinder chamber 18 and to exhaust the air from the upper end thereof through the duct 89 and pipe 88. The air pressure against the underside of the piston 11 thereby raises the piston and its piston rods 'IB and I9, these piston rods being prevented from turning relative to the piston by the pin 83 which engages the slot 82 of the lower piston rod 19, as best shown in Fig. 4. Since the workpiece is carreid by the upper end of the upper piston rod 16, thi movement of the piston 11 elevates the workpiece 20 through the bore and into the bore I00 of the follower. 95, as illustrated in Figs. 4 and '7.

- 'The upper end of the workpiece is projected through the opening 96 in the follower 95 and its flangeJEZ is brought into engagement with the follower immediately under and around this opening 96. The continued upward movement of the piston rod 16 thereby causes anupward movement of the follower 05, throughthe medium of the workpiece 20, this upward movement of the follower in the bore. 92 of the cupshaped head 9| being against the resistance of the helical compression spring 98. In the ex-- treme upper position of the parts the upper end of the follower 95 engages with the top of the cup-shaped part 9| and the stern of the workpiece is projected through the opening 93 in this cup-shaped part. 9i. At this time the upper end of the workpiece is arranged in the central opening of the piece 58 of sheet metal and in close relation to the rotating cutter 46 but not in engagement therewith.

, This cutter46 is being continuously rotated through the belt 51, as shown in Fig. 1, this belt engaging the pulley 50 which in turn is fast to the left hand chuck spindle 45, as viewedin Fig. 4, and which is in turn journaled in the left hand pair of bearings 39. t The cutter 46 is made In this position the pivoted stop,I26

of hardened 'drill rod with three spiral cutting grooves provided at its center and one end is held by the left hand chuck jaw so as to rotate with the left hand spindle 40. Its opposite end is held by the right hand chuck jaw 42 of a end of the cutter 46 and into the small chamber formed by the piece 58 of sheet metal which is secured to the underside of the block 55 and encloses the cutter 46. This cutting oil, together with the chips developed during cutting,

are sucked out of this small chamber by the suction line 63 and passage 62, this suction also bein sufiiciently powerful to draw air in through the central opening in the piece 58 of sheet metal so that no dripping or loss ofcutting oil occurs This last opening in the around the cutter. piece 58 of sheet metal isprovided, of course, to permit the workpiece 20 to be brought into engagement with the cutter 46.

The operator then turns the handle I35. This handle is secured to the upper end head M of.

the cylinder I3 and thereby rotates the cylinder. Thisupper end head M of the cylinder carries the roller I3l which is held in engagement with the upper cam face I30 of the cam plate III by the helical compression springs I40 which, as best' shown in Fig. 4, yieldinglyhold the cylinder 'I3 in a depressed position and bear againsta thrust I bearing MI on the underside of the-stationary plate 'H.' As the operator rotates the cylinder 13 a corresponding rotation of thepiston rods "I6, i9 is also effected, inasmuch as the cylinder 13 and these piston rods are compelled to rotate in unison through the medium of the pin 83 in the groove 82 of the lower piston rod I9, as best shown in Fig. 4. While the cylinder 13 is so being turned, its roller I3I rides up on the salient part of the cam face. I30 and thereby moves the cylinder I3 and the piston rod I6 upwardly against the resistance of the springs I40 and into engagement with the rotating cutter 46. The relation between the rotating and endwise movements 'of the cylinder 13 and piston rod I6 is determined by the shape of the cam face I30, this cam face and upper piston rod I6 are maintained in predetermined relation to the stationary cam face I30, it will be seen that the bayonet slot 28 is provided in a predetermined relation to the screw driver slot 25 of the workpiece so that all of the finished pins are identical in this regard.

The operator then rotates the handle I35 back to its original position. This serves to withdraw the workpiece from the rotating cutter 46, the roller l3i riding in a reverse direction on the stationary cam face I30 so that the cutter follows the out which it has made in the Workpiece during this withdrawal. The parts are thereby returned to the position shown in Fig. 4 in which the cutter 46 is out of engagement with the workpiece;

The operator then releases the foot treadle 81 thereby to actuate the valve 86'so as to supply basket air pressure through the pipe 88 and duct 89 to so as to exhaust the air from the-underside of the piston 17 therein through the pipe 85. This causes the piston 11 to move downwardly, the finished article being thereby returned to the position :shown in 7. In, this downward movement the workpiece 2B remainson top of the upper piston rod 16 and in theifirst. part of this downwardmovement the follower 95 moves downwardly with the workpiece and the piston rod. The helical return spring 98 of the follower thereby serves to positivelyd'raw the shank of the -the upper Side -Of the cylinder chamber 19, and i cylinder, a vertical {piston rod connected with said piston and extendingcoaxially through said cylinder and having its upper end extending outwardly from said cylinder, means at the upper end of said pistonrod for holding the metal part to be cut, valve means for admitting fluid pressure into the lower end of said cylinder to elevate said piston and pistonirod and bring the metal part to be cut into a position adjacent said cute ter, means for rotating said holder about a vertical axis and means for further elevating said holder while said metal part is in engagement pinthrough the opening93fiin the cup-shaped i part 9! at theupper end of the cylinder head? 14 so that if the workpiece were burredduring 'the cutting operation these burrs do not interfere i with the retraction of the workpiece through the 1 opening 93. The continued downward movement 'of the parts causes the follower to come to rest at thebottom of the bore 91, as best shown in Fig. 7, and the continued downward movement of the pistonrod brings the workpiece to the position shown in Fig. '7 in which it is in line with i the feeding opening H3 of the upper cylinder head it and with the cutout l25. The operator thereupon steps on the valve I50.

. air under pressure through the line l5! to the This admits gooseneck I52, As best shown in Figs. land 11,

- the discharge-of this gooseneck l52'is. in line Y with the feeding opening H3 inthe upper head 14 of the cylinder and the blast of air thereby blows the pivoted stop I 26 to theopenposition -shown in Fig. 11 and blows the workpiece out through the cutout portion 125 of theupper cylinder head 14. The tube I58, as shown in Fig. 1, alines withthe path ofdischarge of the workpiece being rso blown out of the apparatus and deposits the finished workpiece into the This returns the parts to properl,

[59. position for feeding another workpiece to the -m'achine and the same cycle of operations is repeated. i

From the foregoing it will be seen that the i present invention provides a machine for accurately cutting a bayonet slot of predetermined form and in a predetermined position in a pin 7 of the character shown; which will out such bayonet slots rapidly; in which there is no dripping or loss of cutting oil; inwhich the blanks can readily be tied to the apparatus and are rapidly ejected therefrom; and in which the machine is of simple construction considering the under conditions of severe and constant use with out gettingout of order 'or requiring repairs.

- I claim: 1

1; A machinaofthe character described for cutting metalparts, comprising a frame, a cutter be'cut into engagement with said cutter and rotating saidholder abouta vertical axis, while saidmetal part is in engagement withsaid cutter.

2. A machine of the character described for 3 cutting metal parts, comprising a frame, a cutter mounted on said frame and rotating about a horizontal axis, a vertical cylinder mounted on said frame below said cutterf'a pistonfin said with said cutter through motion derived from said last means. Y i

3. A machine of the character described for cutting metal parts, comprising a frame, a cutter ,mounted on said frame and rotating about a horizontal axis, a vertical cylindermounted on said frame below said cutter, a piston in said cylinder, a vertical piston rod connected with said piston and extending coaxially through said cylinder and having its upper end extending outwardly from said cylinder, means at the upper end of said piston rod for-holding the metal part to be out, valve means for admitting fluid pres sure into the lower end of said cylinder to elevate said piston and piston rod and bring the metal part to be cut into a position adjacent said cutter, means for rotating sold holder about a vertical axis and cam means for further elevating said holder while said metal part is in engagement with said cutter through motion derived from said last means.

4. A machine of the character described for cutting metal parts, comprising a frame, a cut-v ter mounted on said frame and rotatable about i a horizontal axis; a vertical cylinder mounted i on said frame below said cutter to rotate about its vertical axis, a piston in said cylinder, a vertical piston rod connected with said piston and extending coaxially through said cylinder and having its upper end extending outwardly from said cylinder, means permitting said piston rod to move axially relative to said cylinder but comfunction whichit performs and will stand up polling said, piston rod and cylinder to rotate in unison, the upper end of "said piston rod being formed to hold the metal part to be cut, valve means for admitting fluid pressure intothe lower end of said cylinder to elevat said piston and piston rod andbring themetal part to be cut into a position adjacent to said cutter, means for rotating said cylinder about its axis, and means for further elevating said cylinder to bring said part to be cut into engagement With said cutter while being rotated by said last means.

5. A machine of the character describedfor cutting metal parts,-comprising a frame, a cutter mounted on said frame and rotatable about a horizontal i axis, a stationary vertical sleeve mounted on said frame below said cutter, a cylinder fitted in said sleeve for axial and rotatable movement therein, said cylinder being provided with cylinderheadsat its upper and lower ends, a piston in said cylinder, a vertical piston rod connected'with said piston and having its upper end extending through the upper end head of said cylinder, means permitting said piston rod to move axially relative tosaidcylinder but compellin said piston ro'dxand'cylinder to rotate in unison, a membermounted on said upper end 1 head ofsaid cylinder and formin the upper 'Ii'aw "of a holder for' holding the metal part to be cut,

the lowerpjaw of said holder being formed by the wiul per end of said pistcn'ro'd; means for feeding the metal part to be out onto said upper end of "and further moving said cylinder axially upward to bring said metal part to be cut into engagement with said cutter.

6. A machine of the character described for cutting metal parts having a shank and a flange extending radially outward from said shank,

comprising a frame, a cutter mounted on said frame and rotating about a horizontal axis, a vertical cylinder mounted on said frame below said cutter to rotate about its vertical axis, said cylinder bein provided with cylinder heads at its upper and lower ends, a piston in said cylinder, a vertical piston rod connected with said piston and having its upper end extending through the upper end head of said cylinder, means permitting said piston rod to move axially relative to said cylinder but compelling said piston rod and cylinder to rotate in unison, a vertical cup-shaped member mounted on the upper end head of the cylinder and having a bore leading to an upper end wall thereof and having an opening extending centrally through said upper end wall, a cy-, lindrical follower mounted in said bore and having a bore in which the upper end of said piston rod is fitted, said follower being provided with a wall at its upper end'and havingan opening registering with the opening in the upper wall of said cup-shaped member, spring means yieldingly holding said follower in a depressed position relai tive to said cup-shaped member, means for feeding the flange of the metal part to be out onto the upper end of said piston rod While in a lowered position; valve means for admitting fluid pressure into ,the lower end of said cylinder tov elevate said piston and piston rodand to bring the flange of the metal part to be cut into engagement with the underside of the upper wall of said follower and to project the stem of said metal part to be cutthrough said openings into a position adjacent said cutter and to bring the up per end of said follower into engagement with the upper end of said cup-shaped member, and

1 means for rotating saidcylinder and moving said cylinder axially upward in said sleeve to bring the stem of the metal part tobe cut into engagement with said cutter.

,7. A machine of the character described for cutting metal parts, comprising a frame, a cutter mounted on said frame and rotatable about a horizontal mounted on said frame below said cutter, a cylinder fitted in said sleeve for. axial and rotatable movement therein, said cylinder being provided with cylinder heads at its upper and lower ends, a piston in said cylinder, a vertical piston rod connected with said piston and having its upper end extending through the upper end head of said cylinder, means permitting said piston rod to mov axially relative to said cylinder but compelling said piston rod and cylinder to rotate in unison, a member mounted on said upper end head of said cylinder and formingthe upper jaw of a holder for holding the metal part to be cut,

qtheylower jaw of said holder being formed by the I upper endof said piston rod, f'means for. fitting --the'metal part to be out onto said upper 'end of said'piston rod while in a lowered position-, valve means for admitting fluid pressure into the lower 7 said pistonrod while in a lowered position, valve 7 means for admitting fluid pressure into the lower end of said cylinder to elevate said piston and end' of said cylinder to elevate said piston and piston rod and bring the metal part to be cut I into engagement with the upper jaw of said holder and into a position adjacent said cutter, and

means for rotating said cylinder about its .axis

and further moving said cylinder axially upward to bring said metal part to be cut into engagement with said cutter comprising an annular cam mounted on said sleeve concentric therewith, a roller mounted on said piston and engaging said cam, and a handle projecting outwardly from the upper endhead of said piston.

8. A machine of the character described'for cutting metal parts, comprising a frame, a cutter comprising a drill rod havingspiral threads cut therein and mounted on said frame to rotate about a horizontal axis, means forming a small chamber around said cutter and having an opening in its underside throughwhich themetal part to be cut is fed upwardly into engagement with i said cutter, means for feeding the metal part to be cut upwardlythrough said opening into said chamber and into engagement with said cutter, a

means for feeding a supply of cutting oil into said chamber at one end of said cutter, and suction means connected with said chamber at the opposite-end of said cutter for sucking the cutting oil and the chips formed during the cutting operation out of said chamber.

9. A machine of the character described for cutting metal parts, comprising a frame, a block mounted on said frame and having a recess in its underside, a cutter mounted on said frame to rotate about a horizontal axis and comprising a drill rod having spiral threads cut therein and arranged in said recess, a plate secured to the underside of said block and enclosing said'recess and the part of the cutter therein, said plate being provided with an opening therethrbugh;

through which the metal part to be cut is fed upwardly into engagement with said cutter, means for feeding the metal part to be cut upwardly through said opening into said recess and into engagement with said cutter, means for feeding cutting oil into said recess at one end of said cutter, and suction means connected with said recess at the opposite end of said cutter for sucking the cutting oil and chips formed during the cutting operation out of said recess.

10. :In a machine of the character described for cutting metal parts, means for feeding the metal part to be cut onto a holder, comprising a member surrounding the upper end of said holder and having a feed opening extending horizontally therethrough to said holder and a discharge opening extending horizontally therethrough from axis, a stationary vertical sleeve said holder and in line with said feed opening,

a door pivoted on said member and swinging across said discharge opening and forming a stop to position said metal part to be cut on said holder, a pusher mounted to feed the metal part to be cut through said feed opening and onto said holder, and means actuated through motion derived from said pusher to close said door when said metal part is pushed onto said holder, and means for opening said door and discharging said metal part through said discharge opening 11. In a machine of the character described for cutting metal parts, means for feeding the metal part to be out onto a holder, comprising a. member surrounding the upper end of said holder and having a feed opening-extending horizontally therethroughto said holder and a discharge i opening extending horizontally therethrough from said holder and in line with said feed opening, a door pivotedon said member to swing about a vertical axis across said discharge open.- ing and forming a stop to position said metal part to be cut on said holder, a pusher mounted to feed the metal part to be cut through said feedopening and onto said holder, and an extension on said pusher and engaging said door to close said door when said part ispushed onto said holder, and means for opening said door' and discharging said metal part through said dis charge opening. i

12. In a machine of the character described for Jutting metal parts, means for feeding the metal part to be cut onto a holder, comprising a member surrounding the upperend of said holder and having a feed opening extending horizontally therethrough to said holder and a discharge opening extending horizontally therethrough from said holder and in line with said feed opening, adoor pivoted on said ,member to swing about a vertical axis across said discharge opening and forming a stop to position said metal part to be cut on said holder, said door being provided with an extension projecting beyond its axis, a horizontal bracket mounted on said part and provided with a horizontal guideway in line with said feed opening, a pusher slidingly mounted in said guidewayand formed to feed the metal part to be cut through said feed opening and onto said holder, and a push rod mounted on said pusher and engaging said extension of said door toclose said door when said part ispushed onto said holder, and means for open ing said door and discharging said metal part 35 13. A machine, of thecharacter described for cutting metal parts, comprising aframe, a cut- I ter mounted on said frame and rotating about an through said discharge opening.

axis, a vertical rod mounted for longitudinal movement: on said frame below said cutter and having its upper end formed to hold the metal part to be cut, means for elevating said rod to part tobe out onto the upper end of said rod,

comprising a member surrounding the upper end an axis, a holder for the metal part to be cut, a member surrounding saidholder and having a,

feed opening extending therethrough to said holder and a discharge opening extending there through from said holder in line with said feed opening, means for feeding the metal part to be cut through said feed opening into engagement i with said holder, means for moving said holder to bring the metal part to be cut into engagement with said cutter, and means for discharging said metal part through said discharge opening com 1 prising a conduit having its dischargearranged adjacent said feed openingand means for admitting compressed air to said conduit to blow said metal part out, throughsaid discharge opening. a

cutting metal parts, comprising a frame, a cutbring the metal part to be cut into engagement with said cutter, means for feeding the metal of said rod and having a vertical bore in which said rod slides and having a feed opening extending horizontally therethrough to said, bore and having a discharge opening extending horizona tally therethrough from said bore and ,in line with said feed opening, a doorpivoted on said member to swing about a vertical axis across said discharge opening and forming a stop to position said metal part to be cut on said holder, a pusher mounted to feed the metal part, to be,

cut through said feed opening and onto said ter mounted on said frame and rotating about an axis, a vertical rod mounted for longitudinal movement on said frame below said cutter and having its upper end formed to hold the metal part to be cut, means for elevating saidrod to bring the metal part to be cut into engagement with said cutter, a member surroundingthe upper end of said rod and having a bore in which said rod slides and having a feed opening extending horizontally therethrough to said bore andhaving a discharge opening extending horizontally therethrough from said bore and in line with said feed opening, means'for feeding the metal part to be cut through said feed opening onto said rod, and means for discharging said metal part to be cut through said discharge openinfi.comprising a conduit having its discharge arranged adjacent said feed opening and means for admitting compressed air to said conduit to blow said metal part out through said discharge opening.

16. In a machine of the character described for cutting metal parts, means forfeeding the metal part to be out onto a holder, comprising a member surrounding the upper end of said holder and having a feed opening extending horizontally therethrough to said holder and a discharge opening extending horizontally there- 1 through from said holder andin line with said 3 ,feedopening, a ,door pivoted on said member and swinging across said discharge opening and forming a stop to position said metal part to be i cut on said holder, a pusher mounted to feed rod, and an extension on said pusher and engaging said door to close said door when said part is pushed onto said holder and means for opening said door and discharging said metal part through said discharge opening;

14. A machine of the, character described for cutting metal parts, comprising a frame, a cutthe metal part to be cut through said feed opening and onto said holder, and means actuated through motion derived from said pushertoclose said door when said metal part is pushed onto said holder, and means for opening said door,

and discharging said metal part through said discharge opening, comprising a conduit having its-discharge directed toward said feed opening and means for admitting compressed air to said conduit to blow said door openand to blow said metal part out through said discharge opening.

RICHARD FAUSER.

ter mounted on said frame and rotating about 15. A machine of the character described for 

